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RECENT DPGR PUBLICATIONS

(2005-2008)

 

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2008

  • Belanger, C., Copeland, J., Muirhead, D., Heinz, D., and Dzialowski, E.M.  2008. Morphological changes of the chicken ductus arteriosi during closure at hatching.  Anatomical Record. 291: 1007-1015.

  • Dzialowski, E.M. and Greyner, H.  2008.  Maturation of the contractile response of the Emu ductus arteriosus.  Journal of Comparative Physiology B.  178: 401-412.

  • Khorrami, S., Tazawa, H., and Burggren, W.  �Blood-doping� effects on hematocrit regulation and oxygen consumption in late-state chicken embryos (Gallus gallus).  Journal of Experimental Biology. 211 (6):883-9.

  • Burggren, W.W. and Bagatto, B.  Cardiovascular Anatomy and Physiology of Larval Fishes.   In: Fish Larval Physiology.  Eds. N. Finn, B.G. Kapoor.  Oxford & IBH Publishing Co. Pvt. Ltd., New Delhi  PDF   

2007

  • Dzialowski, E.M. 2007. Introduction to the symposium on developmental transitions in respiratory physiology.  Comparative Biochemistry and Physiology A. 148A: 709-711.

  • Burggren, W.W. and Warburton, S.  Amphibians as animal models in physiological studies.   Institute for Laboratory Animal Research Journal.  48(3):260-269.

  • Perry, S and Burggren, W.  Why respiratory biology? The meaning and significance of respiration and its integrative study.  Integrative and Comparative Biology.  In press.

  • Sbong, S. and Dzialowski, E.M. Respiratory and cardiovascular responses to acute hypoxia and hyperoxia in internally pipped chicken embryos. Comparative Biochemistry and Physiology A. doi: 10.1016/j.cbpa.2007.03.013

  • Yoneta, H., Dzialowski, E.M., Burggren, W.W. and Tazawa, H. 2007. Endothermic heart rate response in broiler and White Leghorn chicks (Gallus gallus domesticus) during the first two days of post hatch life. Comparative Biochemistry and Physiology A. doi: 10.1016/j.cbpa.2007.02.001
  • Burggren, W.W. and Bagatto, B.  Cardiovascular Anatomy and Physiology of Larval Fishes.   In: Fish Larval Physiology.  Ed. N. Finn

  • Burggren, W.W. and Reiber, CL.  Evolution of Cardiovascular Systems.  In: The Endothelium: A Comprehensive Reference.  Ed. W. Aird.  Cambridge University Press.

  • Dzialowski, E. M., Burggren, W. W., Komoro, T. and Tazawa, H.  Development of endothermic metabolic response in embryos and hatchlings of the emu (Dromaius novaehollandiae).  Respir. Physiol. andNeurobiol.  155:286-292.

2006

  • Yoneta, H., Fukazawa, K., Dzialowski, E.M., Burggren, W.W., and Tazawa, H. 2006. Does sequence of exposure to altered ambient temperatures affect the endothermic heart rate response of newly hatched chicks? In: New Insights into Fundamental Physiology and Peri-natal Adaptation of Domestic Fowl. Eds. S.Yahav and B. Tzschentke, Nottingham Univ. Press, UK. P. 15-28.

  • Fukuoka, S., Khandoker, A.H., Dzialowski, E.M., Burggren, W.W., and Tazawa, H.   Development of endothermic heart rate response in emu (Dromaius novaehollandiae) embryos.  In. New Insights into Fundamental Physiology and Peri-natal Adaptation of Domestic Fowl.  Eds. S. Yahav and B. Tzchentke.  Nottingham University Press, Nottingham, UK, 29-42

  • A. Mendenhall, B. LaRue, P. Padilla, “Glyceraldeyde-3-phosphate dehydrogenase mediates anoxia response and survival in Caenorhabditis elegans, Genetics, Vol. 174, 1173-1187, November 2006.

  • Bagatto, B and Burggren, W.  A three-dimensional functional assessment of heart and vessel development in the larva of the zebrafish (Danio rerio).  Physiol. Biochem. Zool.  79(1):194-201

  • Burggren, W.W.   Complexity change during physiological development.  In: Comparative Developmental Physiology.  Eds: Warburton, S., Burggren, W.W.,  Pelster, B., Reiber, C, and Spicer, J.   Oxford University Press, New York.   

  • Dzialowski, E.M., Turner, P.K., and Brooks, B.W. Physiological and reproductive effects of beta adrenergic receptoragonists on Daphnia magna. Archives of Environmental Contamination and Toxicology.  In Press.

  • Warburton, S., Burggren, W.W.,  Pelster, B., Reiber, C, and Spicer, J.  Comparative Developmental Physiology.   Oxford University Press, New York.     

  • Lamason, R.L., Mohideen, M., Mest, JR.,  Wong, A.C., Norton, H.L., Aros, M.C., Jurynec, M., Mao, X.,Vanessa R. Humphreville, VR., Humbert, JE., Sinha, S., Moore, JL., Jagadeeswaran, P. et al.  The zebrafish golden gene is a cation exchanger with a role in human pigmentation. Science (in press).

  •   Jagadeeswaran, P. (2006) Killifish as genetic model for aging. Handbook on Models of Human Aging. (In Press)

2005

  • V. Hajeri, J. Trejo, P. Padilla, 2005, “Characterization of sub-nuclear changes in Caenorhabditis elegans embryos exposed to brief, intermediate and long-term anoxia to analyze anoxia-induced cell cycle arrest.” BMC Cell Biology Dec 20; 6;47.
    Fuchs, J. & H. Schwark.  Primary cilia are indispensable, ubiquitous chemosensory and mechanosensory organelles. Proceedings of the International Conference on Computational & Experimental Engineering and

    Sciences, pp. 359-364.

  • Burggren, W.W.  Developing animals flout prominent assumptions of ecological physiology.   Comparative Biochemistry and Physiology A. 141(4):430-439.
  • Dzialowski, E.M.  Use of operative and standard operative temperature models in thermal biology. Journal of Thermal Biology, 30: 317-334. PDF
  • Burggren, W.W.  and Monticino, M.G.  Assessing Physiological Complexity.  J. Exper. Biol.  208:3221-3232.  PDF
  • Burggren, W.W.  and Warburton, S.J.  Comparative Developmental Physiology: An interdisciplinary convergence.  Ann. Rev. Physiol.  67:203-223. PDF
  • Chan, T. and Burggren, W.W.  Hypoxic incubation creates differential morphological effects during specific developmental critical windows in the embryo of the chicken (Gallus gallus).  Respir. Physiol. Neurobiol.  145:251-263  PDF
  • Fuchs, J.L. & H.D. Schwark Primary cilia are indispensable, ubiquitous chemosensory and mechanosensory organelles.  Int. Conf. Computational Exper. Eng. Sci. Proc. (in press). 
  • Goven, A.J., Venables, B.J., and Fitzpatrick, L.C.  Earthworms as ecosentinels for chemical - induced immunotoxocity.  In:  Investigative Immunology, Eds. Helen Tryohonas, Michel Fournier, Barry Blakely, Judit Smits, and Pauline Brousseau; Chapter 7, pp 91 -105.
  • Jagadeeswaran, P, Gregory, M. Day, M.  Zebrafish: A genetic model for hemostasis and thrombosis. J. Thrombosis and Haemostasis, 3:46-53.  

  • Jagadeeswaran, P. (2005) A green signal for thrombopoietic program. Blood (in press).

  • Thattaliyath, B., Cykowski, M., Jagadeeswaran, P.  Young thrombocytes initiate the formation of arterial thrombus in zebrafish. Blood, 106:118-24.  

         For pre-2005 publications please see each DPGR faculty members' web site.

 

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Last modified: Monday July 14, 2008.